A register fence causes no code to be generated, but it affects register allocation so that no registers are live when it is reached.

2

skip

void

links code chunks.

3

parami

integer

32 bit

load an int parameter (register or stack location).

4

paramq

quad

64 bit

load a quad parameter (register or stack location).

5

allocp

pointer

allocate stack space (result is an address)

6

reti

void

return an int

7

retq

void

64 bit

return a quad

8

retd

void

return a double

9

livei

void

extend live range of an int

10

liveq

void

64 bit

extend live range of a quad

11

lived

void

extend live range of a double

12

file

void

source filename for debug symbols

13

line

void

source line number for debug symbols

14

comment

void

a comment shown, on its own line, in LIR dumps

15

not in use

Load

16

not in use

17

ldc2i

integer

load char and sign-extend to an int

18

lds2i

integer

load short and sign-extend to an int

19

lduc2ui

integer

load unsigned char and zero-extend to an unsigned int

20

ldus2ui

integer

load unsigned short and zero-extend to an unsigned int

21

ldi

integer

load int

22

ldq

quad

64 bit

load quad

23

ldd

double

load double

24

ldf2d

double

load float and extend to a double

Store

25

sti2c

void

store int truncated to char

26

sti2s

void

store int truncated to short

27

sti

void

store int

28

stq

void

64 bit

store quad

29

std

void

store double

30

std2f

void

store double as a float (losing precision)

31

not in use

Call

32

not in use

33

callv

void

call subroutine that returns void

34

calli

integer

call subroutine that returns an int

35

callq

quad

64 bit

call subroutine that returns a quad

36

calld

double

call subroutine that returns a double

Branch

37

j

void

jump always

38

jt

void

jump if true

39

jf

void

jump if false

40

jtbl

void

jump to address in table

41

label

void

a jump target (no machine code is emitted for this)

42

not in use

Guards

43

x

void

exit always

44

xt

void

exit if true

45

xf

void

exit if false

46

xtbl

void

exit via indirect jump

47

xbarrier

void

A LIR_xbarrier cause no code to be generated, but it acts like a never-taken guard in that it inhibits certain optimisations, such as dead stack store elimination.

48

not in use

Immediate

49

immi

int immediate

50

immq

64 bit

quad immediate

51

immd

double immediate

52

not in use

Comparisons

53

eqi

integer

int equality

54

lti

integer

signed int less-than

55

gti

integer

signed int greater-than

56

lei

integer

signed int less-than-or-equal

57

gei

integer

signed int greater-than-or-equal

58

ltui

integer

unsigned int less-than

59

gtui

integer

unsigned int greater-than

60

leui

integer

unsigned int less-than-or-equal

61

geui

integer

unsigned int greater-than-or-equal

62

not in use

63

eqq

integer

64 bit

quad equality

64

ltq

integer

64 bit

signed quad less-than

65

gtq

integer

64 bit

signed quad greater-than

66

leq

integer

64 bit

signed quad less-than-or-equal

67

geq

integer

64 bit

signed quad greater-than-or-equal

68

ltuq

integer

64 bit

unsigned quad less-than

69

gtuq

integer

64 bit

unsigned quad greater-than

70

leuq

integer

64 bit

unsigned quad less-than-or-equal

71

geuq

integer

64 bit

unsigned quad greater-than-or-equal

72

not in use

Arithmetic

73

eqd

integer

double equality

74

ltd

integer

double less-than

75

gtd

integer

double greater-than

76

led

integer

double less-than-or-equal

77

ged

integer

double greater-than-or-equal

78

negi

integer

negate int

79

addi

integer

add int

80

subi

integer

subtract int

81

muli

integer

multiply int

82

divi

integer

i386/64

divide int

83

modi

integer

modulo int - LIR_modi is a hack.It's only used on i386/X64.The operand is the result of a LIR_divi because on i386/X64 div and mod results are computed by the same instruction.

84

noti

integer

bitwise-NOT int

85

andi

integer

bitwise-AND int

86

ori

integer

bitwise-OR int

87

xori

integer

bitwise-XOR int

88

lshi

integer

left shift int

89

rshi

integer

right shift int (>>)

90

rshui

integer

right shift unsigned int (>>>)

91

addq

quad

64 bit

add quad

92

subq

quad

64 bit

subtract quad

93

andq

quad

64 bit

bitwise-AND quad

94

orq

quad

64 bit

bitwise-OR quad

95

xorq

quad

64 bit

bitwise-XOR quad

96

lshq

quad

64 bit

left shift quad,2nd operand is an int

97

rshq

quad

64 bit

right shift quad, 2nd operand is an int

98

rshuq

quad

64 bit

right shift unsigned quad; 2nd operand is an int

99

negd

double

negate double

100

addd

double

add double

101

subd

double

subtract double

102

muld

double

multiply double

103

divd

double

divide double

104

modd

double

modulo double LIR_modd is just a place-holder opcode, ie. the back-ends cannot generate code for it.It's used in TraceMonkey briefly but is always demoted to a LIR_modl or converted to a function call before Nanojit has to do anything serious with it.

105

cmovi

integer

conditional move int

106

cmovq

quad

64 bit

conditional move quad

107

cmovd

double

conditional move double

Conversions

108

i2q

quad

64 bit

sign-extend int to quad

109

ui2uq

quad

64 bit

zero-extend unsigned int to unsigned quad

110

q2i

integer

64 bit

truncate quad to int (removes the high 32 bits)

111

i2d

double

convert int to double

112

ui2d

double

convert unsigned int to double

113

d2i

integer

convert double to int (no exceptions raised)

114

dasq

quad

64 bit

interpret the bits of a double as a quad

115

qasd

double

64 bit

interpret the bits of a quad as a double

Overflow arithmetic

116

addxovi

integer

add int and exit on overflow

117

subxovi

integer

subtract int and exit on overflow

118

mulxovi

integer

multiply int and exit on overflow

119

addjovi

integer

add int and branch on overflow

120

subjovi

integer

subtract int and branch on overflow

121

muljovi

integer

multiply int and branch on overflow

122

addjovq

quad

64 bit

add quad and branch on overflow

123

subjovq

quad

64 bit

subtract quad and branch on overflow

SoftFloat

124

dlo2i

integer

SoftFloat

get the low32 bits of a double as an int

125

dhi2i

integer

SoftFloat

get the high 32 bits of a double as an int

126

ii2d

double

SoftFloat

join two ints (1st arg is low bits, 2nd is high)

127

hcalli

integer

LIR_hcalli is a hack that's only used on 32-bit platforms that use SoftFloat.Its operand is always a LIR_calli, but one that specifies a function that returns a double.It indicates that the double result is returned via two 32-bit integer registers.The result is always used as the second operand of a LIR_ii2d.